Rd October 2010 [a] Contents
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- [b]References
- [b] Political-economic-social significance
- [b] Outlook for the future
- [b]The argument [c]The value
- [b]Current contributions of protected areas
- [c]Conservation of natural ecosystems without human interference
- [c]Conservation of large, intact ecosystems
[b]Management options Cross-border coordination can raise the profile of a particular site or sites and can help to increase management capacity and expertise in these areas. However the complexity of managing sites across borders should not be overlooked. The need for consensus and approval of management decisions from two or more governing bodies can slow decision making. Also if the two or more partnering protected areas or other conservation areas have different management objectives, for instance a category II national park promoting education and recreation next to a category Ib wilderness area aiming to be undisturbed by significant human activity, differing mandates can complicate cooperation and management. Differences in language across borders can also be a limiting factor; and major differences in resources between protected areas in different countries can create management difficulties and tensions. Border areas can also create significant problems of their own which have little direct relation to protected area management but can cause major impacts. Borders are often associated with refugees, smuggling, militarisation and armed conflict. The string of protected areas on the border between the United States and Mexico suffer major problems in this regard. However it is often because of these problems, which makes areas less attractive for settlement and development, that they remain areas with high biodiversity and conservation potential (Mittermeier et al, 2005). The establishment of co-operation on one type of objective, e.g. nature conservation, can and will generate opportunities and implications for other objectives, e.g. promoting peace, regional integration or economic development, involving a complex array of actors including communities and institutions both sides of the border in the cooperative arrangement. This national to local scale of governance and interests can result in extremely complex diplomatic and institutional arrangements and involve agencies that do not regularly interact with one another, e.g. nature conservation, immigration, customs, traditional authorities and security forces. [b]Conclusions Whereas the protected area estate has performed relatively well in securing representative samples of biodiversity pattern (distribution of species, communities, and ecosystems), it remains inadequate for conserving the ecosystem processes that will secure either the protected areas or biodiversity in the wider landscape. Multiple-agency, landscape-level approaches that involve a range of sectoral interests and objectives (the ecosystem approach) can help resolve this problem. At the same time such approaches when taking place across boundaries of different countries which do not have a harmonious relationship can result in the additional benefit of helping secure cooperation or at least ease boundary area dispute and conflict. Of course not all transboundary conservation efforts achieve what can sometimes be portrayed as quite idealist objectives in terms of conflict resolution; but there are enough examples in existence to illustrate that this is a real benefit which in the right place and at the right time protected areas can offer. It is therefore possible that transboundary conservation areas will increasingly be seen as a mechanism to resolve political disputes, especially boundary disputes, and more importantly create the conditions for peaceful co-operation among nations. This will require a more sophisticated analysis of situations and the development of appropriate tools and processes that link national to local processes and engender co-operation across sectors. While transboundary conservation areas may not be the first resort in situations of active conflict, processes that lead to their establishment can be used to engender reconciliation after conflict, both symbolically between nations and practically, at the local level between communities and authorities who depend on and are charged with securing sustainable natural resource management. [b]References Alsdirawi, F. and Faraj, M. (2004) Establishing a transboundary peace park in the demilitarized zone (DMZ) on the Kuwaiti/Iraqi borders, Parks, 14:1 p. 48-55 Brock, L. (1991) Peace through parks: The environment on the Peace Research Agenda, Journal of Peace Research, 28:4. 407-423 Hamilton, L. (1997) Guidelines for Effective Transboundary Cooperation: Philosophy and Best Practices, in the Proceedings of Parks for Peace International Conference on Transboundary Protected Areas as a Vehicle for International Co-operation, www.unep-wcmc.org/protected_areas/transboundary/somersetwest/somersetwest.pdf, accessed 4th September 2009 Hamilton, L. (2004) Review of Transboundary Protected Areas: The Viability of Regional Conservation Strategies, Mountain Research and Development, 24:2,187-187 Hammill, A. and Besançon, C. (2007) Measuring Peace Park performance: Transboundary mountain gorilla conservation in central Africa, In Ali, S. H. (Editor) Peace Parks: Conservation and Conflict Resolution, Massachusetts Institute of Technology Mittermeier, R. A., Kormos, C. F. Mittermeier, C. G. Gil, P. R. Sandwith, T. and Besançon, C. (2005) Transboundary Conservation, Cemex, Mexico Sandwith, T.S., Shine, C., Hamilton, L.S. and Sheppard, D.A. (2001) Transboundary protected areas for peace and co-operation, IUCN, Gland, Switzerland and Cambridge, U.K. Sandwith, T. Lockwood, M. and Gurung, C. (2006) Linking the landscape. In: Lockwood, M., Kothari, A. and Worboys, G.L. Managing Protected Areas: A Global Guide, Earthscan Singh, J. (1999) Global review: Lessons learned, Study on the Development of Transboundary Natural Resource Management Areas in Southern Africa, Biodiversity Support Program, Washington, D.C. UNEP-WCMC (1997); Parks for Peace International Conference on Transboundary Protected Areas as a Vehicle for International Co-operation, www.unep-wcmc.org/protected_areas/transboundary/somersetwest/, accessed 4th September 2009 UNEP-WCMC (2007) UNEP-WCMC Transboundary Protected Areas Inventory -2007, www.tbpa.net/tpa_inventory.html, accessed 4th September 2009 Wascher, D. M. and Pérez-Soba, M. (eds.) (2004) Learning from Transfrontier Landscapes – Project in Support of the European Landscape Convention, Alterra report 964, Wageningen, The Netherlands Zunckel, K, C Mokuku and G Stewart (2007) Case Study – Maloti Drakensberg Transfrontier Project, www.tbpa.net/case_08.htm, accessed 4th September 2009 [a]Case study 12.1: La Amistad Binational Biosphere Reserve in Costa Rica and Panama Manuel Rámirez La Amistad Biosphere Reserve and binational World Heritage Site is located in the Talamanca–Tabasara Mountain Range. La Amistad, which means “friendship” in Spanish, was officially declared on the Costa Rican side in 1982 and on the Panamanian side in 1998 as a symbol of binational cooperation. Stretching from southern Costa Rica to western Panama, it is a conservation and multiple-use area acting as a backbone and linking these two countries. The reserve protects one of the largest and richest ecosystems in Central America. Its system of protected natural and cultural areas includes approximately 633,000 ha in Costa Rica (12 per cent of the country) and 655,000 ha in Panama (8.7 per cent of the country). [b]Biodiversity and flagship species La Amistad sits on the narrow land bridge between North and South America, where two distinct biotas, extreme ranges of temperatures, rainfall, altitude, slope, and exposure converge, make it one of the most biologically diverse protected regions in the Western Hemisphere. The reserve contains a great expanse of pristine forest, including the largest portion of cloud forest in Central America, and provides a unique refuge for native wildlife species whose populations depend upon large tracts of land. This diversity is evident not only in the high levels of endemism (between 20–50 per cent for all groups), but also in the numbers of species present within the biosphere reserve, for example, La Amistad has the second most diverse butterfly fauna in the world (DeVries, 1993). Populations of large mammals thrive within this complex of protected areas, including the tapir (Tapirus bairdi), the giant anteater (Myrmecophaga tridactyla), six species of cats, most notably the jaguar (Panthera onca). Nearly 70 per cent of Costa Rica and Panama’s bird species inhabit the core areas of the biosphere reserve. The national bird of Panama, the harpy eagle (Harpia harpyja), a magnificent predator whose highly restricted distribution is a direct consequence of extensive deforestation, is also found here. The reserve is also the convergence point for 75 per cent of all migratory birds in the Western Hemisphere. [b]Political-economic-social significance In 1979 Costa Rica and Panama established their first transboundary cooperation agreement for the purpose of jointly developing investment and assistance projects. Presidential declarations issued both in 1979 and 1982 with reference to the establishment of La Amistad International Park emphasized two important arguments: the need to conserve their joint natural and cultural heritage; and the importance to have a model for peace and friendship between neighboring countries. Over the years, governmental and non-governmental agencies in these two countries have engaged in coordinated efforts to foster joint plans and binational cooperation under the transboundary agreement signed 30 years ago. The region is of great cultural importance, as shown by the numerous archaeological sites discovered within the biosphere reserve, silent testimony to more than 12,000 years of human history that spans occupation of the first settlers, who were hunter–gatherers, to the complex, agriculturally-based tribal societies encountered by Europeans in the 16th century. Today the area includes the ancestral lands of the two largest indigenous groups in Costa Rica: the Bribri and the Cabecar. Their combined population of 26,000 (Guevara, 2000) represents nearly two-thirds of the country’s total number of indigenous people. Three ethnic groups live in and around the Panamanian side of the biosphere reserve: the Guaymi or Ngobe, the Naso, and the Bribri. Their population numbers about 75,000. Through traditional practices of shifting agriculture (corn, beans, plantain, and rice), hunting, fishing, and utilization of forest products, these groups have maintained a relatively sound relationship with their natural environment. [b]Benefits and threats La Amistad is important biologically and economically to these two countries. The high annual rainfall of 2,000–7,000 mm, combined with the short and steep watersheds common to the region, creates both serious flood hazards and a potential for hydroelectric energy production. Half of Costa Rica's freshwater flow originates from catchments in La Amistad. In Panama, the land surrounding La Amistad is vital to the country’s economy, producing 80 per cent of the country's fruits and vegetables. Currently, both Costa Rica and Panama have major hydroelectric projects inside or adjacent to La Amistad, e.g. the Fortuna dam that produces a significant portion of Panama’s energy, and the Cachi dam, that produces energy for the Costa Rican economy. Additional hydro projects are in the planning phase in both countries; all of them within the buffer zones of the parks and some in indigenous territories. The Talamanca region has undergone little development compared with the rest of Costa Rica and Panama. While the majority of land within the core of the Talamanca remains relatively pristine and legally protected, adjacent areas have suffered major land use change. Two decades after its declaration, land tenure within La Amistad is still a source of conflict. For example, indigenous territories are progressively losing land to non-indigenous settlers, particularly on the Pacific side of the reserve and encroachment is severe in the Panama sector of the reserve. [b]Outlook for the future The geographic, cultural and biotic complexity of the Talamanca region requires a broad range of institutional involvement. The full support of national entities, governmental agencies, and international organisations is needed to ensure the success of La Amistad as a trasboundary conservation area. Only coordinated action between these entities will generate the required level of integrated management and development fundamental to the long-term survival of the biosphere reserve. Finding common ground between these and the local landscape users remains a difficult task. However, local and regional civil society groups and international agencies recognize that working together is the only way to achieve desired outcomes. The recognition that conservation of biodiversity and its entire ecosystems is of economic benefit to both countries has created a renewed interest in the coordinated management of ¨La Amistad¨ ecoregional complex. There is a growing awareness of binational and regional ecosystem services that the area provides, particularly in terms of the role of conserving forest cover in the upper watersheds of rivers originating in the La Amistad complex to ensure continued water supplies to population centers, hydropower, and other economic activities. Clean air, biodiversity and scenic beauty values for ecotourism are also beginning to be appreciated, as are the carbon stocks of the forests which will certainly add value to climate change mitigation and adaptation. [b]References DeVries, P. (1987) The butterflies of Costa Rica and their natural history, Princeton University Press, USA Guevara, M. (2000) Perfil de los pueblos indígenas de Costa Rica, RUTA-Banco Mundial [b]Chapter 13: Nature conservation: leaving space for biodiversity Nigel Dudley We’re sitting in the park office of a protected area in southern Vietnam. We have driven down yesterday from Ho Chi Minh and just had lunch with the warden and his staff who are, as always, charming. My colleague and I are here to get feedback on the results of a monitoring programme the park has introduced and they have just finished the first systematic field survey. I don’t speak Vietnamese so things go a little haltingly. But everyone is very excited about the research. The monitoring officer starts to tell me what they found: Elephas maximus! I turn to my colleague from Hanoi and try to get in straight in my head – you mean they really just found elephants in the park for the first time? Well yes they did. And this is a good park I think; keen young staff, good people working with them from the university in the capital, support from the government; it is just that they are quite a new protected area, with very few resources available and enormously tricky terrain to operate in. Someone told me in the Congo Basin a few years back that he estimated there was an area the size of France and Germany combined where scientists had no idea about the distribution of even large animals like elephant. Conservation under these circumstances cannot be as precise as the planners in central offices would like us to suppose, but it is often critically important in the face of rapid change and huge pressures on wildlife. Even in the places – especially in the places – where we still know so little about the variety of plant and animal species, protected areas play a key role in keeping them in existence. [b]The argument [c]The value The underlying message of this book is that the tenth or more of the world’s land surface set aside for protection, coupled with the growing amount of coastal zones and oceans, provide a far wider range of goods and services than has generally been recognised. Far from being a net drain on human resources, protection of natural capital leaves us well in pocket. But for most people protected areas are, and will remain, primarily tools for conserving wildlife, particularly endangered plant and animal species. The more technical term biodiversity, encompassing the full range of biological variation at ecosystem, species and genetic level, is increasingly recognised. Biodiversity has a wide range of use values – for food, medicines and other materials – but also has intrinsic value. Most people instinctively agree that we should not be causing or increasing the rate of extinction of species, whether or not they are of direct value to ourselves, and this philosophy has been confirmed by all the world’s major religious systems (Palmer and Findlay, 2003). Efforts to conserve biodiversity use three major approaches: Taking species away from their natural habitat and maintaining them in artificial conditions, known as ex situ conservation and including zoos, artificial breeding centres and seed or gene banks. Such approaches may be essential in emergency situations, as an insurance policy and if the natural habitat has entirely disappeared (which may become more common under climate change). Conserving species in semi-natural habitat, including for example agricultural areas, commercial forestry, waste ground and in urban settings. Careful management and usually some trade-offs between production and conservation can hugely increase the number of species supported in semi-natural habitats and at an extreme diversity can come close to fully natural conditions. But in most cases a proportion of species will be unable to survive or will be unwelcome. This may be because they are too specialised to adapt to changing conditions such as is the case with some shy primate or bird species. Alternatively it could be because they are associated with habitats that are unlikely to survive in managed habitats, like the many species associated with dead wood, which tends to be removed in managed forests to maintain tree health. Finally, some species compete directly with humans, a category including many large carnivores or species such as elephants that carry out crop raiding. Conserving species in a natural or near-natural habitat (protected areas), where because of an area’s remoteness or through deliberate management policies habitat is managed directly for nature, including management decisions to leave it entirely alone. The distinction between the second and third of these inevitably remains slightly blurred. Most conservation biologists agree that effective biodiversity conservation is in almost all cases built around a framework of protected areas. [c]The benefit Protected areas are nowadays usually established primarily as a means of biodiversity conservation. Whereas in the past national parks were established either because of their scenic value or with an eye to protecting one or two key species, new tools and approaches are increasing the precision with which protected areas are selected (Margules and Pressey, 2000; Eken et al, 2004; Dudley and Parrish, 2006) and managed (Hockings et al, 2005) and the key role they play in biodiversity conservation is acknowledged in national and global policies, including those of the Convention on Biological Diversity. Climate change is creating additional challenges in this respect both in terms of the design and management of protected areas. An understanding of the various ways in which protected areas function as tools for biodiversity conservation helps to lay the ground for developing response strategies. Protected areas offer a number of unique benefits for species and ecological processes that cannot survive in managed landscapes and seascapes. They provide space for evolution and a benchmark for future restoration (Sinclair et al, 2002), which is especially important in a time of rapid ecological change. Protected areas are often the only remaining natural or semi-natural areas in countries or regions, and significant numbers of species are found nowhere else (Ricketts et al, 2005). [b]Current contributions of protected areas Protected areas play multiple roles in biodiversity conservation; nine different contributions can be distinguished depending on the species, ecological situation and types of pressures and opportunities present: Conservation of natural ecosystems without human interference Conservation of large, intact ecosystems for the protection of known and unknown species Conservation of particular endangered fragments of ecosystems Conservation of particular habitats or species by management tailored to their specialised needs Conservation of species adapted to culturally-influenced ecosystems by maintaining traditional management Providing high levels of protection for very limited, range restricted and endemic species Conservation of particular aspects of species’ life-cycles through time-limited interventions Conservation of habitat fragments of importance for migratory species Providing places to experiment with sustainable natural resource management Each of these will be examined in greater detail below [c]Conservation of natural ecosystems without human interference Some species and habitats are highly susceptible to human interference and are likely to decline in managed landscapes or seascapes and in extreme cases even where there are a relatively few human visitors. This could be for example: plant species that are damaged by light trampling (Cole, 1995), animals with social structures that are easily disturbed (e.g. Kirika et al, 2008); species susceptible to introduced diseases or invasive species (e.g. Daszak et al, 2000); or species subject to over-collection or hunting (e.g. Walsh et al, 2003). Here the most strictly protected areas provide a partial or complete buffer from interference. Such sites can range from very small to extremely large, depending on the type of habitat and species under consideration. “Classic” strict reserves include seabird colonies, which can be devastated by human interference (and particularly by the introduction of pest species such as the brown rat), some reserves set aside for sensitive primate species and for very fragile vegetation types. In some cases this sensitivity may be caused by the isolation of a site. Cors Fochno National Nature Reserve is at 653 ha the largest remaining lowland raised bog in Wales, UK and part of the core of the Dyfi UNESCO Biosphere Reserve. Because of its small size, sensitive vegetation types and risks of fire, it is now kept off-limits to visitors, except for occasional access on boardwalks accompanied by the warden. The wilderness concept has developed in part out of such concerns, although here there are also social and cultural issues involved regarding perceptions of space and untamed nature. [c]Conservation of large, intact ecosystems At a scale that allows natural ecosystem processes to continue without interference, with populations of species large enough so that they are likely to remain genetically viable and able to withstand environmental pressures over time (e.g. Sanderson et al, 2002). Areas on this scale ensure protection both of known species and, particularly important in biologically-rich areas, species that have not yet been described by science (Peres, 2005). In reality, costs and human pressures often mean that there is a trade-off between ideal size and possible size. Wardens at Bwindi Impenetrable Forest National Park in Uganda worry that the area is large enough to sustain the 300 pairs of mountain gorillas that live there, but farming takes place right up to the borders and there is local resentment about the area being set aside at all. Ecological processes may be as important as individual species or habitats. Serengeti National Park in Tanzania and the neighbouring Masai Mara National Park in Kenya protect not only the savannah ecosystem of the region but also the unique migration patterns of large herbivores such as the zebra and wildebeest (Sinclair and Norton-Griffiths, 1984). Massive tropical rainforest reserves, such as the Tumuacumaque National Park in Brazil, which at 3.9 million ha is around the same size as Switzerland, have the capacity to accommodate viable populations of top predators, migration routes and natural disturbance patterns and to protect unknown species that have not as yet been described within scientific literature. Protected areas as insurance policies are particularly important in places where knowledge remains fragmentary. We still know far less about the wildlife of the planet than might be assumed. Halfway through the period of writing this chapter researchers have discovered forty new species from a volcano in Papua New Guinea, including new mammals and amphibians and as the vignette that starts this chapter shows the same kinds of things are happening in Indochina. When we start considering plants or invertebrates our level of ignorance rises exponentially. 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